At this time, Godzilla's atomic breath was no longer blue, but pink!
boom!!!
The snow demon's huge body was hit all of a sudden... There was no good idea for this. After all, the huge size means that its flexibility will be reduced. There is no way. Moreover, with the snow demon's huge size, her movements are already very agile.
But this does not mean that she can avoid the pink atomic breath... The speed of this thing is much faster than the speed of sound... On the contrary, Scar King, who can move around and move, avoid the atomic breath like acrobatics, is truly rare!
"Low, slow, fast", this is the characteristic of almost all living things.
This rule is derived from Kleber's law. This means that the larger the animal's weight, the slower the vital signs, such as the heartbeat and movements, will be slower. If you have ever raised a pet, you may feel the somatosensory. The heartbeat of small animals is particularly fast, such as kittens' heartbeat 120 to 180 times per minute, our heartbeat is about 70 times per minute, while the heartbeat of elephants is only 30 times a minute. Moreover, small animals, such as mice, cats, and dogs, can't catch them even when they run. For hippos and elephants, they may take half a minute to turn around.
Large objects can indeed move quickly, but they are difficult to accelerate quickly, because large objects are often very large in mass, so they usually take a long time to change direction or speed. For organic organisms, the flexibility of giant organisms is not comparable to that of small organisms, because there are various obstacles, such as heat dissipation. Some German scientists have studied more than 500 wild animals. They sorted these animals by weight and finally found that the larger the weight, the faster the travel speed, but when the weight reaches 1,000 kilograms, the travel speed will stabilize and even begin to decline. One of the reasons for this phenomenon is heat dissipation.
"The energy conversion efficiency of muscles is very low. Every 100 joules of energy is delivered to the muscles, and 70% of them will be converted into heat and emitted."
This is more obvious in acceleration. If the acceleration is too fast, the energy consumed in a short time will be converted more heat, but their bodies cannot dissipate these heat in time, which will lead to overheating. If the acceleration is slow, the heat dissipation problem will be solved, but the acceleration time will be longer and the total energy consumption will be more. Their bodies often cannot store so much energy, so it is difficult to achieve the theoretical maximum travel speed.
Another point is the speed of nerve conduction!
In fact, the nerve conduction speed of most organisms is very different.
In the biological world, there are differences in nerve conduction velocities of various species. This difference is mainly affected by the diameter and degree of myelination of nerve fibers. For nerve fibers with myelin sheath, the conduction velocity is about 3.7 times the diameter. For example, a myelined nerve fiber with a diameter of 20 microns has a conduction velocity of nearly 75 meters per second. While an unmyelined nerve fiber with a diameter of 1 to 4 microns has a slower conduction velocity, about 1 to 4 meters per second. Not only are there differences between different species, but there are also differences in nerve conduction velocity between different individuals of the same species. This difference is also affected by the diameter and degree of myelination of nerve fibers. Therefore, in research and application, we need to consider these differences in order to more accurately evaluate the individual's nerve conduction function.
In addition, when we touch cold or hot water, the nerve signals from the hands are transmitted to the brain, which makes judgments and commands muscles to contract to pull the hands back. The time required for this process is called the reaction time. Studies have shown that the normal reaction time of a person is about 0.3 seconds. The length of this reaction time is not only affected by the nerve conduction speed, but also by the brain processing speed and muscle reaction speed.
Understanding these basic knowledge of nerve conduction and reaction time will help us better understand the physiological mechanisms of the human body and make more accurate judgments and decisions in practical applications.
This is where Titans compares to the hanging cabinet.
I don’t know how their myelin and nerve fibers grow. The speed of human toes when stepping on Lego is about 0.3 seconds. That is to say, the nerve signals transmitted from the toe nerves run to the brain at about this speed.
But how big is the Titan?
Take Scar King as an example, this guy is 97 meters.
If its nervous system is the same as that of humans, its conduction speed will be similar. In other words, the signal sent from the nerves under its feet to the brain is about fifty times that of humans!
In other words, it takes at least 15 seconds for nerve conduction.
Fifteen seconds!
With its huge size, it should definitely not be able to react quickly.
In fact, it’s not just Scar King, Godzilla’s speed is actually not slow.
It's hard to imagine how the nerves of these things are made!
Maybe these guys' nerves are made of fiber optics... After all, only that can explain why these guys look agile.
After all, according to common sense, if a human stabs Godzilla in the foot, Godzilla will feel at least half a minute later and finds someone under his feet.
But when these guys were fighting, they were fiercer than the other, and they didn't mean to be half a beat slower.
It's very magical.
The nerves made by fiber optics... Maybe that's the case. After all, what are these guys similar to carbon-based creatures?
The built-in atomic reactor consumes radiation and doesn’t need to shit. It’s the most perfect xxn constitution, and it doesn’t just eat.
In short, these things highlight one unscientific. Even if you have hard-core things like atomic reactors, it is impossible to fiberize nerve fibers.
Even now this research has been done all over the world. After all, the prospects for this thing are really good. For example, Tony's Iron Man armor, the human-computer interaction efficiency of this thing is actually very high. Tony even designed a brain-computer interface to allow his nerves to be directly connected to the mecha computer.
This chapter is not finished yet, please click on the next page to continue reading the exciting content later! But Tony soon gave up this technology... because it was too difficult.
Brain-computer interface refers to the direct connection created between the human or animal brain and external devices, realizing the information exchange between the brain and the device. Brain-computer interface technology is a transformative human-computer interaction technology. Its mechanism of action is to bypass peripheral nerves and muscles and directly establish a new communication and control channel between the brain and external devices. It captures brain signals and converts them into electrical signals to achieve information transmission and control.
It allows brain signals to directly control external devices or receive information from external devices. According to the different interface methods, brain-computer interfaces can be divided into three types: invasive, non-invasive and semi-invasive, and each major category can be subdivided into multiple subcategories. Invasive brain-computer interfaces can be implanted into the cerebral cortex through surgery to obtain more accurate and high-resolution brain signals. However, this type of interface type has a high risk of surgery and is currently usually used in neuroscience research or clinical trials. Invasive brain-computer interfaces can be divided into internal cortex electrodes and deep electrodes according to the depth of electrode implantation.
Cortical electrodes are one of the most common invasive brain-computer interfaces. They collect neural signals from the cerebral cortex by implanting electrodes into the cerebral cortex, and can accurately record the electrical activities of individual neurons or neuron clusters. The advantage is that the signal quality is high and can capture very fine brain activities; the disadvantage is that the surgery is high risk, which may lead to complications such as infection and bleeding, and requires long-term maintenance after implantation.
Deep electrodes are implanted into the brain to collect signals from deep neurons, and to improve symptoms of certain neurological diseases by stimulating specific nuclei in the brain. The advantages are that they have better results in collecting certain specific types of signals and significant treatment effects. The disadvantages are that the surgery is more risky, the implantation location and depth requirements are higher and the process is complicated, and the stimulation parameters need to be adjusted regularly.
The non-invasive brain-computer interface does not require electrode implantation into the brain, but instead collects electrical signals from the brain through electrodes placed on the scalp. There is no need for surgery and is relatively convenient to use, but the signal acquisition quality is relatively low. According to the technology used to collect signals, there are electroencephalography that fits the scalp, functional near-infrared spectrum, and magnetoencephalography that does not contact the human body, and fMRI.
Electroencephalography (EEG) is the most common non-invasive brain-computer interface technology. It records the potential changes of the brain through multiple electrodes placed on the scalp, and then converts it into a computer-recognizable signal. Its advantage is that it is simple to operate, low cost and low risk; its disadvantage is that the signal quality is affected by factors such as scalp and hair, and the spatial resolution is low.
The most important thing is that when using the brain-computer interface, you must concentrate when operating the mecha, and have extremely clear ideas in your mind... This is equivalent to not thinking about anything during a battle. More importantly, the signal conversion between the two will cause slower reaction speed, and in general, there is naturally no problem.
It's easy to take a water cup or do a simple move.
But fighting is a very complicated thing, and it is impossible for me to concentrate on thinking about what to do next action and how to deal with it.
So Tony can only abandon this idea.
But if you can use Titan nerves, there will be no such trouble. You can directly connect them and you don’t need to convert nerve signals into electrical signals.
Of course, this does not easily require a lot of technical research.
So to now, Tony's mecha is also a force feedback mecha.
It's gone far.
Speaking of the Snow Demon, the Snow Demon can only resist because he does not have the reaction speed of Scar King.
But this time, what surprised the Snow Demon was that she felt great pain.
It seemed as if a knife was cut into pieces on her body, and the severe pain triggered her defense mechanism.
The energy in the body began to overflow, and layers of ice crystals began to be on the surface of her body, especially the injured position, to resist the damage of the supercharged atomic breathing.
Godzilla heard the Snow Demon's pain and wailed immediately, so he became more vigorous.
The atomic breath suddenly entered the second stage and began to become more thin.
The thicker this thing is, the greater the power, just like a flame spray gun. The thinner it is, the stronger the power it is!
If it can be so thin that there is only one line... its power is basically equivalent to directly spraying a large-scale nuclear bomb!
It was invincible, cut everything open and then exploded.
But Godzilla couldn't do this. (The atomic breathing of Godzilla in the American version is not too outrageous, the Japanese version is just exaggerated. If you scan it, it will explode... I don't know what the principle is)
However, the Snow Demon did not give it such a chance again. He endured the severe pain and directly used his guardianship trick to Godzilla's body, freezing breath!
The Snow Demon does not have the fancy transformations like Godzilla, nor does he have the kingly domineering aura like Gidorah.
Gidora can really change the environment of the entire planet. In fact, Gidora is a super species from aliens. She is not bound by the physical laws of the earth. She can not only control lightning but also create storms. The reason he came to Earth was to transform the earth into an environment suitable for his living. At that time, the earth's ecology was absolutely finished!
More importantly, Gidora is called the planet devourer, not because it only robs the ecosystem. In fact, it will plunder the energy of the entire planet, including the energy of those Titans!
In fact, the ecosystem alone doesn’t matter to the entire planet.
Is there still less mass extinction on Earth?
It’s amazing that all the lives of the whole world are dead! Anyway, as long as there are proteins on the planet, new life will appear in hundreds of millions of years.
Evolve again at most.
What's so great about it.
It can absorb all the energy on the planet, which is going to be deadly. It will first suck the energy on the surface dry up, then drill into the ground, and start absorbing the planet's geothermal heat until the core of the planet cools down... By then everything will be done!
If the core of the earth is completely cooled, it will bring a series of profound and widespread impacts to the earth. The earth's magnetic field is formed by the current generated by the convection movement of liquid metal in the core. The earth's magnetic field is like a huge protective cover, which can deflect the charged particle flow (solar wind) from the sun, causing it to bypass the earth, thereby protecting the earth's atmosphere and surface life from the direct bombardment and erosion of the solar wind. If the core of the earth is completely cooled, the convection movement of liquid metal will stop and the earth's magnetic field will disappear. Without the protection of the earth's magnetic field, too
The high-energy charged particles in the solar wind will directly impact the earth's atmosphere. These charged particles interact with atmospheric molecules and will trigger a series of chemical reactions, leading to changes in atmospheric composition and destruction of atmospheric structure. Among them, the most direct impact is the destruction of the ozone layer. The ozone layer is a thin layer of gas in the earth's atmosphere. It can absorb most of the solar ultraviolet radiation and protect life on the earth from the damage of ultraviolet rays. The bombardment of the solar wind may cause the ozone layer to become thinner and disappear, causing a large amount of ultraviolet rays to directly reach the surface of the earth, and to the organisms
DNA causes damage, increasing the probability of gene mutation, and seriously affecting the survival and reproduction of organisms. Long-term bombardment of solar wind may also lead to the escape and loss of the Earth's atmosphere. The high-energy particles in the solar wind have high energy and velocity. When they collide with atmospheric molecules, they may give atmospheric molecules enough energy to overcome the earth's gravitational constraints and escape into space. Over time, the earth's atmosphere will gradually become thinner and the atmospheric pressure will decrease, which will have a catastrophic impact on the earth's climate and ecological environment. For example, the reduction of atmospheric pressure will lead to the lower boiling point of water, making liquid water on the earth more likely to evaporate and disappear; at the same time, the insulation effect of the atmosphere will also weaken, and the temperature on the earth's surface will drop, which may cause the global climate to enter a cold ice age.
This is the horror of Gidorah.
But the main character of the Snow Demon is to be simple and unpretentious.
Her frozen breath can skip the tedious process and allow the earth to enter the ice age directly!